Cleaning tank size (mm) 240× 140× 100
Capacity (liter) 3
Frequency (kHz) 40/60
Power (W) 120
Heating power (w) None
Adjustable temperature (℃)
Time adjustable (minutes)
What is the working principle of the power adjustable (%) ultrasonic cleaning machine? The following introduces the main links and steps of its work, and the principle and knowledge of how the ultrasonic cleaning machine works. The principle of ultrasonic cleaning machine is mainly to convert the acoustic energy of power ultrasonic frequency source into mechanical vibration through transducer, and to make the cleaning liquid in the tank radiate into ultrasonic waves by cleaning the tank wall. Because of the radiated ultrasonic waves, the microbubbles in the liquid in the tank can keep vibrating under the action of sound waves. Ultrasonic cleaning machine-Jin Jia ultrasonic cleaning machine
When the sound pressure or intensity reaches a certain level, the bubble will expand rapidly and then suddenly close. In this process, a shock wave is generated at the moment when the bubble closes, so that the pressure around the bubble is1012-10/3 Pa, and the local temperature is adjusted. The great pressure generated by this ultrasonic cavitation can destroy insoluble pollutants and differentiate them into solutions, and steam cavitation directly impacts pollutants repeatedly. Among all cleaning methods, ultrasonic cleaning is the most efficient and effective one. The reason why ultrasonic cleaning can achieve this effect is closely related to its unique working principle and cleaning method. We know that in production and life, there are many things to be cleaned, and there are also many types and links to be cleaned, such as removing pollutants from objects and dredging tiny holes. Common manual cleaning methods can not meet the requirements of irregular objects and hidden places, even steam cleaning and high-pressure water jet cleaning can not meet the requirements of high cleanliness. Ultrasonic cleaning can also kill bacteria, dissolve organic pollutants and prevent excessive corrosion, so ultrasonic cleaning is more and more widely used in various fields. Cleaning of measuring tools; Oil and rust removal of mechanical parts; Cleaning of engine, carburetor and automobile parts; Dredging and cleaning of filters and screens.
(2) Surface treatment industry: degreasing and derusting before electroplating; Cleaning before ion plating; Phosphating treatment; Removing carbon deposits; Removing oxide scale; Transparent polishing paste; Metal workpiece surface activation treatment, etc.
(3) Instrument industry: high cleanliness of precision parts, cleaning before assembly, etc.
(4) Electronics industry: removing rosin and solder joints from printed circuit boards; Clean mechanical and electronic components, such as high-voltage contacts.
(5) Medical industry: cleaning, disinfection and sterilization of medical instruments, cleaning of experimental instruments, etc.
(6) Semiconductor industry: high cleanliness cleaning of semiconductor wafers.
(7) Watch head and accessories industry: removing sludge, dust, oxide layer, polishing paste, etc.
(8) Chemical and biological industries: cleaning and descaling of experimental instruments.
(9) Optical industry: degreasing, sweating and dust removal of optical devices.
(10) Textile printing and dyeing industry: cleaning textile spindles and spinnerets.
(1 1) Petrochemical industry: cleaning and dredging of metal filters, cleaning of chemical containers and exchangers, etc.